Medical Use

ABSTRACT

The invention provides a molecule that inhibits or prevents an interaction between a Src family kinase and an androgen or estradiol receptor, for use in preventing or treating a non-cancerous condition in which an activity of AR and/or ER is a contributory factor in a subject, or for use in preventing or treating a cancerous condition in which an activity of AR and/or ER is a contributory factor in a subject who wishes to preserve fertility, or for use in preventing or treating a gynaecological condition in which an activity of AR and/or ER is a contributory factor in a subject. Preferably, the molecule comprises or consists of the structure: Bj-[(Pro)n-XrHis-Pro-His-Ala-Arg-Ile-Lys]m-Rp, or Bj-[lys-ile-arg-ala-his-pro-his-xr-(pro)n]m-Rp, or a derivative or fragment thereof, wherein B is a first chemical moiety, j is 0 or 1, n is an integer from 1-10, X is any amino acid, r is an integer from 0 to 2, m is an integer from 1 to 3, R is a second chemical moiety, p is 0 or 1, and [lys-ile-arg-ala-his-pro-his-xr-(pro)n] is the retro-inverso peptide of [(Pro)n-Xr-His-Pro-His-Ala-Arg-Ile-Lys].

RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.14/355,698, which is the U.S. National Stage of InternationalApplication No. PCT/GB2012/052722, filed on Nov. 1, 2012, whichdesignates the U.S., published in English, and claims priority under 35U.S.C. § 119 or 365(c) to GB Application No. 1118831.5, filed Nov. 1,2011. The entire teachings of the above applications are incorporatedherein by reference.

The present invention relates to a medical use of molecules, and inparticular the use of molecules to treat conditions in which an activityof the androgen receptor (AR) and/or estradiol receptor (ER) is acontributory factor.

The listing or discussion of an apparently prior-published document inthis specification should not necessarily be taken as an acknowledgementthat the document is part of the state of the art or is common generalknowledge.

Endometriosis is a prevalent disease in women of reproductive age,wherein cells from the lining of the uterus appear and flourish outsidethe uterine cavity, most commonly on the ovaries. It has a propensity torun a chronic and recurrent course after treatment, leading todebilitating chronic pelvic pain and infertility. It is the leadingcause of admission to hospital for abdominal pain and infertility, andis believed to occur in 5-10% of woman.

Current methods for treating endometriosis suffer from numerousdrawbacks.

Non-steroidal anti-inflammatories (NSAIDs) such as ibuprofen andnaproxen treat inflammation caused by endometriosis as well as easingpain and discomfort; however they can cause nausea, vomiting anddiarrhea. Long term use may also result in gastrointestinal irritation,kidney damage and increased risk of heart attack and stroke, and it canreduce the efficacy of aspirin in reducing adverse cardiovascularevents. When taken with quinolone-based antibiotics, NSAIDs can induceseizures.

Paracetamol and codeine (either alone or with paracetamol) may beprescribed to endometriosis patients, but can often lead to constipationwhich may aggravate symptoms.

The mainstay of management of endometriosis symptoms since the late1950s has been the combined oral contraceptive pill. Although notcurative, the pill is generally well tolerated and does alleviate themain symptoms of pain by suppressing the menstrual cycle. The treatmentregimen varies from a three week on/one week off cycle normally used forcontraception to a three to four month on/one week off cycle in the caseof severe disease. Common side effects include irregular vaginalbleeding, fluid retention, abdominal bloating, weight gain, increasedappetite, nausea, headaches, breast tenderness and depression. Asignificant disadvantage is the contraceptive effect and so thecontraceptive pill is not suited for women who wish to preservefertility.

Synthetic progesterone (e.g. progestin/progestogens) prevents ovulationand has been used successfully to treat endometriosis since the mid1950s, for example as an intrauterine device (e.g. the Mirena IUD). Aswell as the obvious contraceptive effect however, other side effectsinclude mood changes, bloating, irregular bleeding and weight gain.

Anti-progestogens such as synthetic testosterone derivatives (e.g.Danzol and Gestrinone) have been used to induce a menopausal like stateby decreasing natural estrogen and progesterone levels; however they caninduce weight gain, acne, hair growth and voice deepening.

Gonadotropin-releasing hormone (GnRH) analogues (e.g. Goserelin,Nafarelin, Leuprorelin/Leupron and Triptorelin) also induce anartificial menopausal state by blocking estrogen production. However,common side effects include hot flushes, vaginal dryness and low libido.Long term use, for example longer than six months, is associated withbone loss leading to osteoporosis.

More recently, the use of aramatase inhibitors (e.g. letrozole andanastrozole) that block the conversion of testosterone to estrogen, hasbeen explored in combination with GnRH agonists which are necessary toprevent overstimulation of the ovaries and development of ovarian cystsin pre-menopausal women. However, calcium, vitamin D and bisphosphonatesare required to alleviate bone loss associated with extended therapy.

Three main types of surgical intervention can be employed to combatendometriosis. First, keyhole Laparoscopy may be used where heat, laseror electro-ablation removes lesions, often during a diagnosticprocedure. Typical time to laproscopic examination can exceed eightyears and symptoms frequently recur due to incomplete removal of lesionsand/or failure to identify hidden lesions. Second, a laparotomy may beperformed to gain access to the abdominal cavity; however, this is amajor surgical intervention with associated risks and prolonged hospitalstay. The third and final option is a hysterectomy but even this is notcurative and lesions may return, especially if the ovaries are left inplace.

NGô et al (J Pathol 2010; 222: 148-157) discuss the potential ofcontrolling the progression of endometriosis in vitro and in vivo, andidentify the ERK pathway as a new target to treat endometriosis.However, the authors stress that further clinical studies are requiredto evaluate the effects and tolerability in humans, and no mention ismade about preserving fertility.

Accordingly, there remains a need to treat endometriosis, and/or otherconditions in which an activity of the AR and/or ER is a contributoryfactor, in a way that preserves fertility, and which preferably suffersfrom less drawbacks than those above.

Surprisingly and unexpectedly, the inventors have now demonstrated thatreducing the interaction between the tyrosine kinase Src and either theAR or ER can provide symptomatic relief for endometriosis patients, andat the same time, has no contraceptive effect.

Both the AR and ER are known to interact with the tyrosine kinase Srcand potentially other Src-family kinases. The AR receptor binds to theSH3 domain of Src (Migliaccio et al (Oncogene 2007, 26: 6619)). SH3domains are 50-70 amino acids long and often feature in eukaryoticsignal transduction and cytoskeletal proteins. The domains bind prolinerich peptides and thereby play a major role in regulation of kinaseactivity as well as localisation and substrate recognition. The ERreceptor binds to the SH2 domain of Src (Migliaccio et al (CancerResearch 2005, 65(22):10585-93)). SH2 domains are generally around 100amino acids long and typically bind to a phosphorylated tyrosine residuein the context of a longer peptide motif in a target protein.

Without wishing to be bound by any theory, the inventors believe that byreducing the interaction between a Src family kinase and either AR orER, the non-genomic regulation of signal transduction by steroidhormones can be selectively inhibited (e.g. activation of a Src familykinase signaling, cyclin D1 expression and DNA synthesis), while at thesame time the genomic regulation of signal transcription by steroidhormones is retained. In this way, many of the side effects associatedwith conventional steroid hormone blockade or ablation (which abolishboth genomic and non-genomic effects) are avoided, and treatment can bemore sustained. Furthermore, the inventors have found that reducing theinteraction between a Src family kinase and either AR or ER is,surprisingly, without a contraceptive effect. This is in sharp contrastto existing treatments. Preservation of fertility represents asignificant advancement in endometriosis treatment since, currently,treatment with anti-androgens and/or anti-estrogens must be suspended toallow conception, which suspension can lead to disease recurrence. Thus,the inventors believe that targeting this interaction will be useful incombating endometriosis and/or other conditions in which an activity ofthe AR and/or ER plays a role.

Accordingly, a first aspect of the invention provides a molecule thatinhibits or prevents an interaction between a Src family kinase and anAR or ER, for use in preventing or treating a non-cancerous condition inwhich an activity of AR and/or ER is a contributory factor in a subject,or for use in preventing or treating a cancerous condition in which anactivity of AR and/or ER is a contributory factor in a subject whowishes to preserve fertility, or for use in preventing or treating agynaecological condition in which an activity of AR and/or ER is acontributory factor in a subject.

Similarly, the invention provides the use of a molecule that inhibits orprevents an interaction between a Src family kinase and an AR or ER inthe manufacture of a medicament for preventing or treating anon-cancerous condition in which an activity of AR and/or ER is acontributory factor in a subject, or for preventing or treating acancerous condition in which an activity of AR and/or ER is acontributory factor in a subject who wishes to preserve fertility, orfor preventing or treating a gynaecological condition in which anactivity of AR and/or ER is a contributory factor in a subject.

Similarly, the invention provides a method of preventing or treating anon-cancerous condition in which an activity of an AR and/or ER is acontributory factor in a subject, or for preventing or treating acancerous condition in which an activity of AR and/or ER is acontributory factor in a subject who wishes to preserve fertility, orfor preventing or treating a gynaecological condition in which anactivity of AR and/or ER is a contributory factor in a subject, themethod comprising administering to a subject in need thereof aneffective amount of a molecule that inhibits or prevents an interactionbetween a Src family kinase and an AR or ER.

By “preventing or treating” a condition in which an activity of ARand/or ER is a contributory factor we include the meaning that theinvention can be used to alleviate symptoms of the disorder (i.e.palliative use), or to treat the disorder (e.g. by inhibition orelimination of the causative agent), or to prevent the disorder (i.e.prophylactic use—either preventing the symptoms from worsening orprogressing, or reducing the progression of a disorder).

Preferably, the condition in which an activity of AR and/or ER is acontributory factor is prevented or treated in a mammalian subject suchas a human. Alternatively, the subject may be an animal, for example adomesticated animal (for example a dog or cat), laboratory animal (forexample laboratory rodent, mouse, rat or rabbit) or an animal importantin agriculture (i.e. livestock), for example, cattle, sheep, horses orgoats. The subject may be female or male.

By a Src family kinase we include any kinase of the Src family. Forexample, the kinase may be any non-tyrosine kinase selected from Src,Yes, Fyn and Fgr (i.e. a kinase of the SrcA subfamily), Lck, Hck, Blk,and Lyn (i.e. a kinase of the SrcB subfamily) and Frk (Amanchy et al,Proteome Res 2008, 7(8): 3447). Most preferably, the Src family kinaseis Src kinase.

By a Src family kinase we include the meaning of a human Src familykinase such as human Src kinase, by androgen receptor (AR) we includethe meaning of human AR, and by estradiol receptor (ER) we include themeaning of human ER, the sequences of all of which are provided inMigliaccio et al (Cancer Research 2005, 65(22):10585-93), Migliaccio etal (Oncogene 2007, 26: 6619), Venter et al (Science 2001,291(5507):1304-51) and WO 2008/113770. It will be appreciated that thereis natural variability with respect to the gene and mRNA sequences, andsuch variability is included within the meaning of each of a Src familykinase (e.g. Src kinase), AR and ER as herein defined.

Variants of human Src family kinase (e.g. Src kinase), AR and/or ER arealso included provided that they share one or more activities of theparent Src family kinase (e.g. Src kinase), AR or ER. In other words,the variants are functional variants. For example, the variants mayshare at least 60% sequence identity, for example at least 65%, 70%,75%, 80% and 85% sequence identity and more preferably 90%, 95% or 99%sequence identity with the corresponding human sequence. Variationsinclude insertions, deletions and substitutions, either conservative ornon-conservative. By “conservative substitutions” is intendedcombinations such as Gly, Ala; Val, Ile, Leu; Asp, Glu; Asn, Gln; Ser,Thr; Lys, Arg; and Phe, Tyr

By each of a Src family kinase (e.g. Src kinase), AR and ER, we alsoinclude orthologues of human Src family kinase (e.g. Src kinase), AR andER. Examples of suitable homologous Src family kinases, AR and ERinclude those from mice and rats. Other orthologues include those fromthe species listed in FIG. 3. It will be appreciated that there isnatural variability with respect to the gene and mRNA sequences encodingthe orthologues of each of human Src family kinase, AR and ER, and thatthis variability is included within the meaning of a homologous Srcfamily kinase, AR and ER as defined.

In an embodiment, the molecule is one that inhibits or prevents aninteraction between the SH3 domain of a Src family kinase (e.g. Srckinase) and an androgen receptor. The details of this interaction areprovided in Migliaccio et al (Oncogene 2007, 26: 6619).

By the SH3 domain' of a Src family kinase we include the meaning of theN-terminal Src homology-3 domain of a Src family kinase (e.g. Srckinase). SH3 domains are typically 50-70 amino acids long and bindproline rich peptides. Work by Migliaccio et al (EMBO J 2000, 19:5406-5417) has demonstrated the importance of the SH3 domain of Srckinase in its interaction with AR.

In another embodiment, the molecule is one that inhibits or prevents aninteraction between the SH2 domain of a Src family kinase (e.g. Srckinase) and an estradiol receptor. The details of this interaction areprovided in Migliaccio et al (Cancer Research 2005, 65(22):10585-93).

By the ‘SH2 domain’ of a Src family kinase we include the meaning of theSrc homology-2 domain of a Src family kinase (e.g. Src kinase). SH2domains are generally around 100 amino acids in length and typicallybind to phosphorylated tyrosine residues.

With respect to the mammalian subject which is to be treated, it isappreciated that the molecule is one which that can inhibit or preventthe interaction between a Src family kinase (e.g. Src kinase) and anandrogen or estradiol receptor, of that mammalian species. For example,when the mammalian subject is a human the molecule can inhibit orprevent the interaction between a human Src family kinase (e.g. Srckinase) and either human AR or human ER, and so on.

By a molecule that prevents or inhibits the interaction between a Srcfamily kinase and AR or ER, we include both the meaning of prohibitingan interaction from forming in the first place and reducing aninteraction once it has been formed. Preferably, the molecule prohibitsor reduces the interaction to an undetectable level.

In a preferred embodiment, the molecule prevents or inhibits theinteraction between a Src family kinase (e.g. Src kinase) and AR or ER,selectively. For example, it is preferred if the molecule prevents orinhibits an interaction between a Src family kinase and AR or ER to agreater extent (e.g. at least 5 fold, 10 fold, 20 fold, 50 fold, 100fold or 1000 fold) than it prevents interactions between a Src familykinase and any other molecule. Likewise, it is preferred if the moleculeprevents or inhibits an interaction between AR or ER, and a Src familykinase to a greater extent (e.g. at least 5 fold, 10 fold, 20 fold, 50fold, 100 fold or 1000 fold) than it prevents the interactions betweenAR or ER, and any other molecule.

Whether or not a molecule prevents or inhibits the interaction between aSrc family kinase and AR or ER, is conveniently determined by assessingthe interaction between a Src family kinase and either AR or ER, in thepresence and absence of the particular molecule. As mentioned above, theSH3 domain of Src kinase is believed to mediate an interaction betweenSrc kinase and AR, and so the interaction between the SH3 domain of aSrc family kinase (e.g. Src kinase) and AR may be assessed in thepresence and absence of the particular molecule. Similarly, the SH2domain of Src kinase is believed to mediate an interaction between Srckinase and ER, and so the interaction between the SH2 domain of a Srcfamily kinase (e.g. Src kinase) and ER may be assessed in the presenceand absence of the particular molecule. Methods for assessing theinteraction between two proteins are well known in the art and anysuitable method may be used. Examples include enzyme linkedimmunosorbent assays (ELISA), surface plasmon resonance assays,competition assays, chip-based assays, immunocytofluorescence, yeasttwo-hybrid technology and phage display, all of which are commonpractice in the art and are described, for example, in Plant et al(1995) Analyt Biochem, 226(2), 342-348.and Sambrook et al (2001)Molecular Cloning A Laboratory Manual. Third Edition. Cold Spring HarborLaboratory Press, Cold Spring Harbor, N.Y. Other methods of assessingprotein interactions include ultrafiltration with ion spray massspectroscopy/HPLC methods or other physical and analytical methods.Fluorescence Energy Resonance Transfer (FRET) methods, for example, arewell known to those skilled in the art, may be used, in which binding oftwo fluorescent labelled entities may be measured by measuring theinteraction of the fluorescent labels when in close proximity to eachother. In a particularly preferred embodiment, an immunoprecipitationassay such as that described in Migliaccio et al (Oncogene 2007, 26:6619) is used to assess the interaction between the SH3 domain of a Srcfamily kinase (e.g. Src kinase) and AR, and/or the interaction betweenthe SH2 domain of a Src family kinase (e.g. Src kinase) and ER.

In a preferred embodiment, the molecule is one that comprises orconsists of the structure:

B_(j)-[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)R_(p), (SEQ IDNO: 1) or B_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2), or a derivative or fragment thereof, wherein B is afirst chemical moiety, j is 0 or 1, n is an integer from 1-10, X is anyamino acid, r is an integer from 0 to 2, m is an integer from 1 to 3, Ris a second chemical moiety, p is 0 or 1, and[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)] (SEQ ID NO: 2) is theretro-inverso peptide of [(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys](SEQ ID NO: 1).

It will be understood that the molecule that comprises or consists ofthe structureB_(j)-[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p), (SEQ IDNO: 1) or B_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2) generally has a peptide portion[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) or[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO: 2), andoptionally further chemical moieties at one or both termini (i.e. B_(j)and R_(p)). In other words, j=0 and p=0; or j=1 and p=0; or j=0 and p=1;or j=1 and p=1. In an embodiment, j=0 and p=0 such that the molecule isa peptide with the structure[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) or[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO: 2).

B and R may be independently, any chemical moiety such as any of a lipid(e.g. a glycolipid, phospholipid, sphingolipid), a fatty acid, atriglyceride, glycerol, a prenyl or iso-prenyl moiety (e.g. farnesyl orgeranyl geranyl moieties), a carbohydrate (e.g. mono- andpoly-saccharides), an amino acid, a peptide, a polypeptide or a nucleicacid, or a combination thereof. Thus, the moiety may be a glyco-peptidesor a lipo-peptide. The moiety may be a low or high molecular weightpolyethylene glycol, for example with a molecular weight ranging from200-70000. Any additional suitable moiety may be determined by a skilledperson.

In an embodiment, B is any of H, or an acetyl group, or one or asequence of amino acids provided with a free or acetyl-derivatised NH₂group.

In a further embodiment, R is any of an OH group, or an NH₂ group or oneor a sequence of amino acids with a C-terminal carboxy-amide group.

Chemical moieties B and R may be optionally attached to the peptideportion of the molecule such that they may be cleaved off the peptideportion when the molecule is administered to the subject. For example,either of moieties B and R may comprise a cleavage site that is capableof being cleaved when the molecule is administered to the body.Generally, the cleavage site is a protease cleavage site that is capableof being cleaved by a protease that resides in the subject.

Chemical moieties B and/or R may be joined to the peptide portion by anysuitable method known in the art. For example, moieties B and/or R maybe joined to the peptide portion by any of the conventional ways ofcross-linking polypeptides, such as those generally described inO'Sullivan et al Anal. Biochem. (1979) 100, 100-108. For example, thefirst portion may be enriched with thiol groups and the second portionreacted with a bifunctional agent capable of reacting with those thiolgroups, for example the N-hydroxysuccinimide ester of iodoacetic acid(NHIA) or N-succinimidyl-3-(2-pyridyldithio)propionate (SPDP), aheterobifunctional cross-linking agent which incorporates a disulphidebridge between the conjugated species. Amide and thioether bonds, forexample achieved with m-maleimidobenzoyl-N-hydroxysuccinimide ester, aregenerally more stable in vivo than disulphide bonds.

Further useful cross-linking agents include S-acetylthioglycolic acidN-hydroxysuccinimide ester (SATA) which is a thiolating reagent forprimary amines which allows deprotection of the sulphydryl group undermild conditions (Julian et al (1983) Anal. Biochem. 132, 68),dimethylsuberimidate dihydrochloride and N,N′-o-phenylenedimaleimide.

Further ways of joining chemical moieties B and/or R to the peptideportion include a chemical ligation protocol, a protocol for couplingusing click chemistry or by using a protocol for coupling usingStaudinger ligation, which are well known in the art. Other suitablemethods may be determined by the skilled person.

When chemical moieties B and/or R are peptides or polypeptides, it isappreciated that the peptide portion of the molecule and chemicalmoieties B and/or R may be part of a fusion polypeptide that may beencoded by a nucleic acid molecule. For example, chemical moiety Band/or R may be genetically engineered to contain the peptide portion ofthe molecule using genetic engineering techniques well established inthe art.

Conveniently, the peptide portion[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) or[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO: 2) of themolecule is less than 57 amino acid residues in length, such as lessthan 55, 50, 45, 40, 35, 30, 25, 20 or 15 amino acids in length. Thus,the peptide portion may have a length of from 8 to 60 amino acidresides, or a length from 10 to 15 amino acid residues, or a length offrom 15 to 20 amino acid residues, or a length of from 20 to 25 aminoacid residues, or a length of from 25 to 30 amino acid residues, or alength of from 30 to 35 amino acid residues, or a length of from 35 to40 amino acid residues, or a length of from 40 to 45 amino acidresidues, or a length of from 45 to 50 amino acid residues, or a lengthof from 50 to 55 amino acid residues. Preferably, the peptide portion is8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24 or 25amino acids in length, and most preferably 10 amino acids in length.

It is understood that a fragment of the molecule comprising orconsisting of the structureB_(j)-[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ ID NO:1), or B_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2), may be used provided that it is capable of preventing orinhibiting an interaction between a Src family kinase (e.g. Src kinase)and AR and/or ER. Thus, it is possible that the molecule may containfewer than the 8 amino acids mentioned above. Typically, the fragment isa fragment of the peptide portion[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) or[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO: 2) of themolecule, and generally is at least 3 amino acids in length, such as atleast 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 or 15 amino acids in length.Thus, the molecule may comprise or consist of a fragment of the peptide[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) or[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO: 2)provided that it is capable of preventing or inhibiting an interactionbetween a Src family kinase (e.g. Src kinase) and AR and/or ER.

A derivative or salt of the fragment may be used as described furtherbelow. For example, capping moieties may be added to one or both ends ofthe fragment to improve stability.

Examples of suitable fragments may be selected from the group consistingof: HPHARIK (SEQ ID NO: 3), HPHAR (SEQ ID NO: 4), PHPHAR (SEQ ID NO: 5),HPH, PHPH (SEQ ID NO: 6), PPHPH (SEQ ID NO: 7), PPPHPH (SEQ ID NO: 8),PHP, PPHP (SEQ ID NO: 9), PPPHP (SEQ ID NO: 10), PPPH (SEQ ID NO: 11),PPH, and PPP. Particular derivatives or salts of the fragments may beselected from the group consisting of: Ac-HPHARIK-NH2 (SEQ ID NO: 12),Ac-HPHAR-NH2 (SEQ ID NO: 13), Ac-PHPHAR-NH2 (SEQ ID NO: 14), Ac-HPH-NH2,Ac-PHPH-NH2 (SEQ ID NO: 15), Ac-PPHPH-NH2 (SEQ ID NO: 16), Ac-PPPHPH-NH2(SEQ ID NO: 17), Ac-PHP-NH2, Ac-PPHP-NH2 (SEQ ID NO: 18), Ac-PPPHP-NH2P(SEQ ID NO: 19), Ac-PPPH-NH2 (SEQ ID NO: 20), Ac-PPH-NH2 and Ac-PPP-NH2.

It is appreciated that when moieties B and/or R are peptides, the entiremolecule may be a peptide and such a peptide may be more than 57 aminoacids in length. However, if the entire molecule is a peptide, it ispreferred if it is less than 150 amino acids in length, such as lessthan 140, 130, 120, 110, 100, 90, 80, 70 or 60 amino acids in length.

Generally, the molecule has a molecular weight of less than 50 kDa suchas less than 40, 30, 20, 10 or 5 kDa. Typically, the molecule is between1000 and 5000 Da in molecular weight. Thus, the molecule may be about4500, 4000, 3500, 3000 or 2500 Da in molecular weight, or weigh between1000 and 2500 Da in molecular weight.

In one embodiment, n is any of 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10, and mostpreferably, n=3. In another embodiment, m is any of 1, 2 or 3, and mostpreferably, m=1. Thus, in a particularly preferred embodiment, n is 3and m is 1.

X_(r) represents a stretch of 1 or 2 amino acid residues which can,independently or both, be any amino acid residue. Thus, the amino acidresidues represented by X_(r) may be a any naturally occurring aminoacid residue which is encoded by DNA, selected from alanine (Ala, A),arginine (Arg, R), asparagine (Asn, N), aspartic acid (Asp, D), cysteine(Cys, C), glutamine (Gln, Q), glutamic acid (Glu, E), glycine (Gly, G),histidine (His, H), isoleucine (Ile, I), leucine (Leu, L), lysine (Lys,K), methionine (Met, M), phenylalanine (Phe, F), proline (Pro, P),serine (Ser, S), threonine (Thr, T), tryptophan (Trp, W), tyrosine (Tyr,Y) and valine (Val, V). However, other than when the peptide portion ismade by expression from a polynucleotide, the amino acid residuesrepresented by X_(r) may comprise one or more amino acid residues whichare not encoded by DNA, including those described below. In oneembodiment r is 0 and in an alternative embodiment r is 1 and X is athreonine residue.

For the avoidance of doubt, the molecule is not AR or ER.

Without wishing to be bound by any theory, the inventor believes thatthe peptide PPPHPHARIK (SEQ ID NO: 21) is the portion of human AR thatmediates the interaction with the SH3 domain of a Src family kinase.Thus, in a particularly preferred embodiment, the peptide portion[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) or[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO: 2) of themolecule is PPPHPHARIK (SEQ ID NO: 21) or the retro-inverso peptidethereof, kirahphppp (SEQ ID NO: 22).

The peptide PPPHPHARIK (SEQ ID NO: 21) is equivalent to amino acidresidues 377-386 of human AR and, without wishing to be bound by anytheory, it is believed by the inventor that the corresponding portionsof AR from other species would share the same activity. By“corresponding portion” we include the meaning of the amino acid residuesequence in another AR which aligns to the given amino acid sequence inhuman AR when the human AR and the other AR are compared, for example byusing an alignment tool such as MacVector or CLUSTALW. Thus, in anotherpreferred embodiment, the peptide portion is a peptide that correspondsto the amino acid sequence at positions 377-386 (PPPHPHARIK (SEQ ID NO:21)) of the human AR. For example, the corresponding peptide in mouseand rat AR is PPTHPHARIK (SEQ ID NOs: 23 and 25), and so the peptideportion may be PPTHPHARIK or the retro-inverso peptide thereof,kirahphtpp (SEQ ID NOs: 24 and 26). The corresponding peptides in aselection of other species are provided in FIG. 3, and so the peptideportion may be any of the peptides listed in FIG. 3 or the retro-inversopeptides thereof. Preferably, the peptide PPPHPHARIK (SEQ ID NO: 21) isadministered to human subjects, and the peptide PPTHPHARIK (SEQ ID NOs:23 and 25) is administered to mouse or rat subjects, and so on.

Aligning two proteins may be carried out using the Clustal W program(Thompson et al., 1994). The parameters used may be as follows: Fastpairwise alignment parameters: K-tuple(word) size; 1, window size; 5,gap penalty; 3, number of top diagonals; 5. Scoring method: x percent.Multiple alignment parameters: gap open penalty; 10, gap extensionpenalty; 0.05. Scoring matrix: BLOSUM.

In a particularly preferred embodiment, the molecule comprises orconsists of the peptide PPPHPHARIK (SEQ ID NO: 21) or PPTHPHARIK (SEQ IDNO: 23).

The peptide portion [(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m)(SEQ ID NO: 1) or [lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQID NO: 2) or fragment thereof of the molecule defined above is typicallymade using protein chemistry techniques for example using partialproteolysis (either exolytically or endolytically), or by de novosynthesis. Alternatively, the peptides may be made by recombinant DNAtechnology. Suitable techniques for cloning, manipulation, modificationand expression of nucleic acids, and purification of expressed proteins,are well known in the art and are described for example in Sambrook etal (2001) “Molecular Cloning, a Laboratory Manual”, 3^(rd) edition,Sambrook et al (eds), Cold Spring Harbor Laboratory Press, Cold SpringHarbor, N.Y., USA.

The peptide portion [(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)(SEQ ID NO: 1) or [lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQID NO: 2) or fragment thereof of the molecule defined above can also bechemically synthesised, for example, by the solid phase peptidesynthesis of Merrifield et al (1964). Alternatively, the peptide portioncan be synthesised using standard solution methods (see, for example,Bodanszky, 1984 and Dugas et al, 1981). Newly synthesised peptides canbe purified, for example, by high performance liquid chromatography(HPLC), and can be characterised using, for example, mass spectrometryor amino acid sequence analysis.

It will be appreciated that other suitable molecules may include anyantibody, either against a Src family kinase (e.g. Src kinase), oreither of AR and ER, that is capable of preventing or inhibiting theinteraction between a Src family kinase (e.g. Src kinase) and AR or ER.As mentioned earlier, the inventor believes that the SH3 domain of Srckinase and amino acid residues 377-386 of AR mediate the interactionbetween Src kinase and AR. Thus, it will be understood that suitablemolecules that inhibit or prevent an interaction between a Src familykinase (e.g. Src kinase) and either AR or ER include an antibody againstthe SH3 domain of a Src family kinase (e.g. Src kinase) or an antibodythat binds to AR at a position that corresponds to amino acids 377-386of the human AR (e.g. an antibody against a peptide having the structure(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys (SEQ ID NO: 1), where n isan integer from 1-10, X is any amino acid and r is an integer from 0 to2, such as an antibody against PPPHPHARIK (SEQ ID NO: 21) or PPTHPHARIK(SEQ ID NO: 23)). Similarly, the SH2 domain of Src kinase is believed tomediate the interaction between Src kinase and ER. Thus, it will beunderstood that suitable molecules that inhibit or prevent aninteraction between a Src family kinase (e.g. Src kinase) and either ARor ER include an antibody against the SH2 domain of a Src family kinase(e.g. Src kinase). Preferably, the antibody prevents or inhibits theinteraction between a Src family kinase (e.g. Src kinase) and AR or ER,selectively, as discussed above.

As used herein, the term “antibody” includes but is not limited topolyclonal, monoclonal, chimeric, single chain, Fab fragments andfragments produced by a Fab expression library. Such fragments includefragments of whole antibodies which retain their binding activity for atarget substance, Fv, F(ab′) and F(ab′)2 fragments, as well as singlechain antibodies (scFv), fusion proteins and other synthetic proteinswhich comprise the antigen-binding site of the antibody. Also includedare domain antibodies (dAbs), diabodies, camelid antibodies andengineered camelid antibodies. Furthermore, for administration tohumans, the antibodies and fragments thereof may be humanisedantibodies, which are now well known in the art (Janeway et al (2001)Immunobiology., 5th ed., Garland Publishing).

Suitable antibodies described above that bind to particular regions of aSrc family kinase (e.g. Src kinase) or AR and ER, can be made by theskilled person using technology long-established in the art. Methods ofpreparation of monoclonal antibodies and antibody fragments are wellknown in the art and include hybridoma technology (Kohler & Milstein(1975) “Continuous cultures of fused cells secreting antibody ofpredefined specificity. Nature 256: 495-497); antibody phage display(Winter et al (1994) “Making antibodies by phage display technology.”Annu. Rev. Immunol. 12: 433-455); ribosome display (Schaffitzel et al(1999) “Ribosome display: an in vitro method for selection and evolutionof antibodies from libraries.” J. Immunol. Methods 231: 119-135); anditerative colony filter screening (Giovannoni et al (2001) “Isolation ofanti-angiogenesis antibodies from a large combinatorial repertoire bycolony filter screening.” Nucleic Acids Res. 29: E27). Further,antibodies and antibody fragments suitable for use in the presentinvention are described, for example, in the following publications:“Monoclonal Hybridoma Antibodies: Techniques and Application”, Hurrell(CRC Press, 1982); “Monoclonal Antibodies: A Manual of Techniques”, H.Zola, CRC Press, 1987, ISBN: 0-84936-476-0; “Antibodies: A LaboratoryManual” 1^(st) Edition, Harlow & Lane, Eds, Cold Spring HarborLaboratory Press, New York, 1988. ISBN 0-87969-314-2; “Using Antibodies:A Laboratory Manual” 2^(nd) Edition, Harlow & Lane, Eds, Cold SpringHarbor Laboratory Press, New York, 1999. ISBN 0-87969-543-9; and“Handbook of Therapeutic Antibodies” Stefan Dübel, Ed., 1^(st) Edition,—Wiley—VCH, Weinheim, 2007. ISBN: 3-527-31453-9.

It is appreciated that the molecule of the invention may comprise thesequence of a cell-penetrating peptide (also known as a proteintransduction domain) that facilitates entry into cells. As is well knownin the art, cell-penetrating peptides are generally short peptides of upto 30 residues having a net positive charge and act in areceptor-independent and energy-independent manner (Lindgren et al,2000; Deshayes et al, 2005a and 2005b; Takeuchi et al, 2006, the entiredisclosure of which relating to cell-penetrating peptides isincorporated herein by reference). Thus, either of chemical moieties Band R mentioned above, may be a cell-penetrating peptide. If so, thecell-penetrating peptide is preferably cleavable from the portion of themolecule responsible for inhibiting or preventing an interaction betweena Src family kinase (e.g. Src kinase) and AR or ER. For example, it maybe cleavable inside a cell.

The molecule may also be modified so that it can be more easilydetected, for example by biotinylating it or by incorporating anydetectable label known in the art such as radiolabels, fluorescentlabels or enzymatic labels.

The amino acid residues of the molecules described herein may be in the“L” isomeric form. However, residues in the “D” isomeric form can besubstituted for any L-amino acid residue, as long as the molecules canstill inhibit or prevent an interaction between a Src family kinase(e.g. Src kinase) and AR or ER. This definition includes, unlessotherwise specifically indicated, chemically-modified amino acids,including amino acid analogues (such as penicillamine,3-mercapto-D-valine), naturally-occurring non-proteogenic amino acids(such as norleucine), and chemically-synthesised compounds that haveproperties known in the art to be characteristic of an amino acid. Theterm “proteogenic” indicates that the amino acid can be incorporatedinto a protein in a cell through well-known metabolic pathways.

Thus, in one embodiment, the peptide portion of the molecule above isthe retro-inverso peptide of the peptide[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) or afragment thereof (preferences for which include those defined above). Byretro-inverso peptide (also known as all-D-retro or retro-enantiopeptides) we include the meaning of a peptide in which all of theL-amino acids are replaced with D-amino acids and the peptide bonds arereversed. Thus, the peptides are composed of D-amino acids assembled inthe reverse order from that of the parent L-sequence. The retro-inversopeptide of [(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ IDNO: 1) is [lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO:2) (where lowercase letters denote the corresponding D-amino acids).Retro-inverso peptides can be synthesised by methods known in the art,for example such as those described in Meziere et al (1997) J Immunol.159 3230-3237. This approach involves making pseudopeptides containingchanges involving the backbone, and not the orientation of side chainswhich remain very similar to the parent peptide. Retro-inverse peptidesare much more resistant to proteolysis.

For the avoidance of doubt, all of the preferences indicated above forX_(r), also apply to its corresponding D-amino acid x_(r).

The peptide portion of the molecule described above can be a peptide“mimetic”, i.e. peptidomimetics which mimic the structural features ofthe peptide comprising or consisting of the amino acid sequence asdescribed above.

Peptidomimetics that are non-peptide in nature can be designed andsynthesised by standard organic chemical methods. Peptidomimetics thatare non-peptide in nature can be even more advantageous in therapeuticuse, in the resistance to degradation, in permeability and in possibleoral administration.

Peptidomimetics are small molecules that can bind to proteins bymimicking certain structural aspects of peptides and proteins. They areused extensively in science and medicine as agonists and antagonists ofprotein and peptide ligands of cellular and other receptors, and assubstrates and substrate analogues for enzymes. Some examples aremorphine alkaloids (naturally-occurring endorphin analogues),penicillins (semi-synthetic), and HIV protease inhibitors (synthetic).Such compounds have structural features that mimic a peptide or aprotein and as such are recognised and bound by other proteins. Bindingthe peptidomimetic either induces the binding protein to carry out thenormal function caused by such binding (agonist) or disrupts suchfunction (antagonist, inhibitor).

A primary goal in the design of peptide mimetics has been to reduce thesusceptibility of mimetics to cleavage and inactivation by peptidases.In one approach, such as disclosed by Sherman et al (1990), one or moreamide bonds have been replaced in an essentially isosteric manner by avariety of chemical functional groups. This stepwise approach has metwith some success in that active analogues have been obtained. In someinstances, these analogues have been shown to possess longer biologicalhalf-lives than their naturally-occurring counterparts. In anotherapproach, a variety of uncoded or modified amino acids such as D-aminoacids and N-methyl amino acids have been used to modify mammalianpeptides. Alternatively, a presumed bioactive conformation has beenstabilised by a covalent modification, such as cyclization or byincorporation of y-lactam or other types of bridges (Veber et al, 1978)and Thorsett et al, 1983). Another approach, disclosed by Rich (1986)has been to design peptide mimics through the application of thetransition state analogue concept in enzyme inhibitor design. Forexample, it is known that the secondary alcohol of statine mimics thetetrahedral transition state of the sessile amide bond of the pepsinsubstrate.

In U.S. Pat. No. 5,552,534, non-peptide compounds are disclosed whichmimic or inhibit the chemical and/or biological activity of a variety ofpeptides. Such compounds can be produced by appending to certain corespecies, such as the tetrahydropyranyl ring, chemical functional groupswhich cause the compounds to be at least partially cross-reactive withthe peptide. Other techniques for preparing peptidomimetics aredisclosed in U.S. Pat. No. 5,550,251 and U.S. Pat. No. 5,288,707.

Commercially available software packages can be used to design smallpeptides and/or peptidomimetics, preferably non-hydrolysable analogues,as specific antagonists/inhibitors. Suitable commercially availablesoftware for analyzing crystal structure, designing and optimizing smallpeptides and peptidomimetics include, but are not limited to:Macromolecular X-ray Crystallography QUANTA Environment (MolecularSimulations, Inc.); TeXsan, BioteX, and SQUASH (Molecular StructureCorporation); and Crystallographica (Oxford Cryostsystems).

It is appreciated that a salt or derivative of the molecule describedherein may be useful to prevent or treat a condition in which anactivity of AR and/or ER is a contributory factor, provided that thesalt or derivative can prevent or inhibit an interaction of a Src familykinase (e.g. Src kinase) with AR or ER. By “derivative”, we include themeaning of peptides (e.g. the peptide portion[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m) (SEQ ID NO: 1) is[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQ ID NO: 2) of themolecule above) having one or more residues chemically derivatised byreaction of a functional side group. Such derivatised molecules include,for example, those molecules in which free amino groups have beenderivatised to form amine hydrochlorides, p-toluene sulfonyl groups,carbobenzoxy groups, t-butyloxycarbonyl groups, chloroacetyl groups orformyl groups. Free carboxyl groups may be derivatised to form salts,methyl and ethyl esters or other types of esters or hydrazides. Freehydroxyl groups may be derivatised to form 0-acyl or 0-alkylderivatives. Also included as derivatives are those peptide portionsthat contain one or more naturally occurring amino acid derivatives ofthe twenty standard amino acids. For example, 4-hydroxyproline may besubstituted for proline; 5-hydroxylysine may be substituted for lysine;3-methylhistidine may be substituted for histidine; homoserine may besubstituted for serine; and ornithine may be substituted for lysine. Thederivatisation does not include changes in functional groups whichchange one amino acid to another.

Some useful modifications are designed to increase the stability and,therefore, the half-life of molecules (eg peptides) in solutions,particularly biological fluids, such as blood, plasma or serum, byblocking proteolytic activity in the blood. Thus, a peptide may have astabilising group at one or both termini. Typical stabilising groupsinclude amido, acetyl, benzyl, phenyl, tosyl, alkoxycarbonyl, alkylcarbonyl, benzyloxycarbonyl and the like end group modifications.Additional modifications include using a “D” amino acid in place of a“L” amino acid at the termini, and amide rather than amino or carboxytermini to inhibit exopeptidase activity. Thus, it is appreciated thatthe peptide portion [(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)(SEQ ID NO: 1) is [lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m) (SEQID NO: 2) of the molecule defined above may have a capping moiety at oneor both ends, preferably a moiety that is less than 200 Da in molecularweight. Further capping moieties include a naftyl group or apolyethylene glycol group. It is appreciated that retro-inverso peptidesare already relatively stable and so may not require additional cappingmoieties.

Accordingly, in a particularly preferred embodiment, the moleculecomprises or consists of the structureAc-Pro-Pro-Pro-His-Pro-His-Ala-Arg-Ile-Lys-NH₂ (SEQ ID NO: 21) orAc-Pro-Pro-Thr-His-Pro-His-Ala-Arg-Ile-Lys-NH₂(SEQ ID NO: 23), where Acis an acetyl group.

The molecule of the invention is one that does not reduce or preventfertility in a subject. As described in the Examples, the inventor hasdemonstrated that administering the peptideAc-Pro-Pro-Pro-His-Pro-His-Ala-Arg-Ile-Lys-NH₂(SEQ ID NO: 21) to micedoes not affect their fertility and it is expected that other moleculesthat prevent or inhibit an interaction between a Src family kinase (e.g.Src kinase) and AR or ER have the same activity. Methods for assessingfertility in a subject are well known in the art and include assays suchas those described in the examples.

In one embodiment, the molecule is administered as a vaccine to generateantibodies. For example, the molecule having the structure defined abovemay be used in the preparation of an antibody that specifically binds tothe AR, and so may be prepared as a vaccine.

It may be desirable to link the molecule to a carrier molecule such as apro-immunogenic molecule. Suitable examples include bovine serum albumin(BSA) or keyhole limpet hemocyanin (KLH). Additionally or alternatively,the molecule may be comprised in a lipid composition such as a lipidparticle, a nanocapsule, a liposome or lipid vesicle. The molecule mayalso be incorporated in coating capsules for slow release as describedfurther below.

By a condition in which an activity of AR and/or ER is a contributoryfactor, we include any biological or medical condition or disorder inwhich at least part of the pathology is mediated by an activity of ARand/or ER. The pathology may be due to an increased or decreasedactivity of AR and/or ER. The condition may be caused by the AR and/orER activity or may simply be characterised by AR and/or ER activity. Theactivity of the AR and/or ER may contribute directly to the condition ormay contribute indirectly to the condition. Generally, the condition inwhich an activity of AR and/or ER is a contributory factor is one wherethe pathogenesis involves aberrant signalling through the AR and/or ER(e.g. one where cell proliferation is modulated by AR and/or ER). Forexample, the condition may involve aberrant signalling through the Srcfamily kinase pathway. Such conditions may be diagnosed readily usingconventional methods available in the art.

The condition may be non-cancerous (including non-cancerousproliferative disorders) or it may be cancerous (e.g. benign ormalignant cancers). The condition may be a reproductive condition, bywhich we include the meaning of a condition that affects some or all ofthe organs or tissues of the reproductive system. The reproductivecondition may be a gynaecological condition, i.e. one which affects thefemale reproductive system.

In a first preferred embodiment, the condition is a non-cancerouscondition, including any proliferative disorder in which AR and/or ER isa contributory factor. Examples include endometriosis, ovarian cysts,fibroids polyps hyperplasia, neoplasia, anovulatory bleeding,endometrial growth in the scrotum, bladder or prostate, andnon-cancerous proliferative conditions in breast tissue. Preferably, thecondition is endometriosis.

In a second preferred embodiment, the condition is a cancerous conditionand the subject is one who wishes to preserve fertility. By ‘wishes topreserve fertility’ we include the meaning of a subject in whom it isdesired not to reduce fertility. For example, the subject may wish toconceive. Such subjects therefore represent a sub-group of cancerpatients as, in addition to having cancer, they additionally wish topreserve fertility. Examples of such cancerous conditions includeuterine fibroids, fibroids polyps hyperplasia, ovarian cancer, bladdercancer, cervical cancer, uterine cancer, testicular cancer and prostatecancer.

In a third preferred embodiment, the condition (e.g. non-cancerous orcancerous) is a gynaecological condition. Preferably, the condition isendometriosis.

It will be understood that in the first and third preferred embodiments,it may be particularly desirable to use the molecule in subjects thatwish to preserve fertility. Thus, in these embodiments also, it ispreferred if the subject is one who wishes to preserve fertility. Mostpreferably, the condition is endometriosis and the subject is one whowishes to preserve fertility.

It is appreciated that the molecule or derivative or fragment thereofdescribed herein may be formulated with a pharmaceutically acceptableexcipient, solvent, diluent or carrier (including combinations thereof).The carrier, diluent, solvent or excipient must be “acceptable” in thesense of being compatible with the molecule or derivative and notdeleterious to the recipients thereof. Typically, the carriers will bewater or saline (e.g. physiological saline) which will be sterile andpyrogen free. Suitable excipients include mannitol and dextrose.Acceptable carriers, solvents, diluents and excipients for therapeuticuse are well known in the pharmaceutical art, and are described, forexample, in Remington's Pharmaceutical Sciences, Mack Publishing Co. (A.R. Gennaro ed. 1985). The choice of pharmaceutical carrier, solvent,excipient or diluent can be selected with regard to the intended routeof administration and standard pharmaceutical practice. Thepharmaceutical compositions may comprise as, or in addition to, thecarrier, excipient, solvent or diluent any suitable binder, lubricant,suspending agent, coating agent, or solubilising agent. Preservatives,stabilisers, dyes and even flavouring agents may be provided in thepharmaceutical composition.

The formulations may conveniently be presented in unit dosage form andmay be prepared by any of the methods well known in the art of pharmacy.Such methods include the step of bringing into association the moleculewith the carrier which constitutes one or more accessory ingredients. Ingeneral the formulations are prepared by uniformly and intimatelybringing into association the active ingredient with liquid carriers orfinely divided solid carriers or both, and then, if necessary, shapingthe product.

Formulations in accordance with the present invention suitable for oraladministration may be presented as discrete units such as capsules,cachets or tablets, each containing a predetermined amount of the activeingredient; as a powder or granules; as a solution or a suspension in anaqueous liquid or a non-aqueous liquid; or as an oil-in-water liquidemulsion or a water-in-oil liquid emulsion. The active ingredient mayalso be presented as a bolus, electuary or paste.

A tablet may be made by compression or molding, optionally with one ormore accessory ingredients. Compressed tablets may be prepared bycompressing in a suitable machine the active ingredient in afree-flowing form such as a powder or granules, optionally mixed with abinder (e.g. povidone, gelatin, hydroxypropylmethyl cellulose),lubricant, inert diluent, preservative, disintegrant (e.g. sodium starchglycolate, cross-linked povidone, cross-linked sodium carboxymethylcellulose), surface-active or dispersing agent. Molded tablets may bemade by moulding in a suitable machine a mixture of the powderedcompound moistened with an inert liquid diluent. The tablets mayoptionally be coated or scored and may be formulated so as to provideslow or controlled release of the active ingredient therein using, forexample, hydroxypropylmethylcellulose in varying proportions to providedesired release profile.

Formulations suitable for topical administration in the mouth includelozenges comprising the active ingredient in a flavoured base, usuallysucrose and acacia or tragacanth; pastilles comprising the activeingredient in an inert base such as gelatin and glycerin, or sucrose andacacia; and mouth-washes comprising the active ingredient in a suitableliquid carrier.

Formulations suitable for parenteral administration include aqueous andnon-aqueous sterile injection solutions which may contain anti-oxidants,buffers, bacteriostats and solutes which render the formulation isotonicwith the blood of the intended recipient; and aqueous and non-aqueoussterile suspensions which may include suspending agents and thickeningagents. The formulations may be presented in unit-dose or multi-dosecontainers, for example sealed ampoules and vials, and may be stored ina freeze-dried (lyophilised) condition requiring only the addition ofthe sterile liquid carrier, for example water for injections,immediately prior to use. Extemporaneous injection solutions andsuspensions may be prepared from sterile powders, granules and tabletsof the kind previously described.

In addition to the ingredients particularly mentioned above, theformulations may include other agents conventional in the art havingregard to the type of formulation in question, for example thosesuitable for oral administration may include flavouring agents.

The molecule or derivative or fragment thereof, or a formulationthereof, may be administered by any conventional method including oral,intranasal, and parenteral (e.g. subcutaneous or intramuscular)injection. Preferred routes include oral, intravenous or subcutaneousinjection. The treatment may consist of a single dose or a plurality ofdoses over a period of time. The molecule or derivative thereof mayformulated in a sustained release formulation so as to provide sustainedrelease over a prolonged period of time such as over at least 2 or 4 or6 or 8 weeks Preferably, the sustained release is provided over at least4 weeks.

In a particular embodiment, the molecule or derivative or fragmentthereof is formulated in a way that allows direct administration to thereproductive system. Thus, the molecule or derivative or fragmentthereof may be formulated in a vaginal or rectal suppository, anintravaginal tampon, an intravaginal ring, an intravaginal pessary, anintravaginal sponge, or a medicated intrauterine device (IUD).

It is appreciated that the invention includes a molecule that inhibitsor prevents an interaction between a Src family kinase (e.g. Src kinase)and an androgen or estradiol receptor, such as a molecule comprising orconsisting of the structureB_(j)-[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ IDNO: 1) or B_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2) defined above, formulated in a way that allows directadministration to the reproductive system or which allows for sustainedrelease. Thus, the invention includes a molecule that inhibits orprevents an interaction between a Src family kinase (e.g. Src kinase)and an androgen or estradiol receptor, such as a molecule comprising orconsisting of the structureB_(j)-[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ IDNO: 1) orB_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p (SEQ ID NO:)2) or derivative or fragment thereof, formulated in any of a vaginal orrectal suppository; an intravaginal tampon; an intravaginal ring; anintravaginal pessary; an intravaginal sponge; a medicated intrauterinedevice (IUD); or a sustained release formulation. In other words, theinvention provides a pharmaceutical composition comprising a moleculethat inhibits or prevents an interaction between a Src family kinase(e.g. Src kinase) and an androgen or estradiol receptor, which moleculeis adapted for formulation in any of a vaginal or rectal suppository; anintravaginal tampon; an intravaginal ring; an intravaginal pessary; anintravaginal sponge; a medicated intrauterine device (IUD); or asustained release formulation, and which composition optionallycomprises a pharmaceutically acceptable excipient, carrier or diluent.

The amount of the molecule or derivative or fragment thereof which isadministered to the subject is an amount effective to combat theparticular subject's condition. The amount may be determined by thephysician.

In an embodiment, the molecule, such as the one comprising or consistingof the structureB_(j)-[(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ IDNO: 1) or B_(j)[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2) defined above, is administered to a subject using a dailydose of between 1-1000 ng, such as a daily dose of 1-900 ng, 1-800 ng,1-700 ng, 1-600 ng, 1-500 ng, 1-400 ng, 1-300 ng, 1-200 ng or 1-100 ng.Thus, the molecule, such as the one comprising or consisting of thestructure B_(j)-[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p)(SEQ ID NO: 1) orB_(j)[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p) (SEQ ID NO:2) defined above, may be administered to a subject using a daily dose ofat least 1 ng, 10 ng, 20 ng, 30 ng, 40 ng, 50 ng, 60 ng, 70 ng, 80 ng,90 ng or 100 ng, or at least 150 ng or 200 ng.

In another embodiment, the molecule, such as the one comprising orconsisting of the structureB_(j)-[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ IDNO: 1) or B_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2) defined above, is administered at intervals (e.g. daily,two-daily or weekly) over the course of at least 5, 10, 15, 20, 25, 30,35, 40, 45, 50, 55 or 60 days, and even over the course of at least 3,4, 5, 6, 7, 8, 9, 10, 11, 12 or 18 months, or over the course of atleast 2, 3, 4 or 5 years. Where the molecule or derivative isadministered at intervals, it will be understood that it may bedesirable to use different routes of administration at differentintervals. For example, the molecule or derivative may be firstadministered by injection and a follow up dose administered bysubcutaneous implant. The optimum administration interval and durationof treatment will generally depend on how severe the condition is.

In one embodiment, the subject is administered a further therapeuticagent in addition to the molecule or derivative described herein. Forexample, when administering the molecule or derivative thereof toprevent or treat a particular condition, a further therapeutic agentknown to be useful for preventing or treating that condition may beadministered. Thus, when preventing or treating endometriosis, thefurther therapeutic agent may be an agent known to prevent or treatendometriosis, when preventing or treating uterine fibroids, the furthertherapeutic agent may be an agent known to prevent or treat uterinefibroids, and so on.

Typically, the condition in which an activity of AR and/or ER is acontributory factor is a proliferative disorder and so the furthertherapeutic agent may be any agent that reduces proliferation such asany of a cytostatic agent or a cytosidal agent or an anticancer agent.

It is appreciated that the further therapeutic agent may be administeredat the same time as the molecule or derivative thereof described herein(i.e. simultaneous administration optionally in a co-formulation) or ata different time to the molecule or derivative thereof described herein(i.e. sequential administration where the further therapeutic agent isadministered before or after the molecule or derivative thereof isadministered). The further therapeutic agent may be administered in thesame way as the molecule of the invention described herein, or by usingthe usual administrative routes for that further therapeutic agent.

A second aspect of the invention provides a composition comprising (i) amolecule that inhibits or prevents an interaction between a Src familykinase (e.g. Src kinase) and an androgen or estradiol receptor, and (ii)a therapeutic agent suitable for preventing or treating a non-cancerouscondition in which an activity of AR and/or ER is a contributory factor,together with a pharmaceutically acceptable excipient, carrier ordiluent. The composition may be a pharmaceutical composition whichfurther comprises a pharmaceutically acceptable excipient, carrier ordiluent.

Preferences for the molecule, derivative, the further therapeutic agent,the condition, and the subject to be treated include those mentionedabove with respect to the first aspect of the invention. For example,the molecule may comprise or consist of the structure:

B_(j)-[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ IDNO: 1), or B_(j)[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2), or a derivative or fragment thereof, wherein B is afirst chemical moiety, j is 0 or 1, n is an integer from 1-10, m is aninteger from 1 to 3, R is a second chemical moiety, p is 0 or 1, and[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)] (SEQ ID NO: 2) is theretro-inverso peptide of [(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys](SEQ ID NO: 1). Most preferably, the molecule has the structureAc-Pro-Pro-Pro-His-Pro-His-Ala-Arg-Ile-Lys-NH₂(SEQ ID NO: 21) orAc-Pro-Pro-Thr-His-Pro-His-Ala-Arg-Ile-Lys-NH₂(SEQ ID NO: 24), where Acis an acetyl group. Preferably, the subject is a human. Preferably, thefurther therapeutic agent is one suitable for preventing or treatingendometriosis.

Accordingly, the invention includes a composition comprising (i) amolecule that inhibits or prevents an interaction between a Src familykinase (e.g. Src kinase) and an androgen or estradiol receptor, and (ii)a therapeutic agent suitable for preventing or treating a non-cancerouscondition in which an activity of AR and/or ER is a contributory factor,together with a pharmaceutically acceptable excipient, carrier ordiluent, for use in preventing or treating a non-cancerous condition inwhich an activity of AR and/or ER is a contributory factor. Thecomposition may be a pharmaceutical composition which further comprisesa pharmaceutically acceptable excipient, carrier or diluent.

Similarly, the invention includes the use of a composition comprising(i) a molecule that inhibits or prevents an interaction between a Srcfamily kinase (e.g. Src kinase) and an androgen or estradiol receptor,and (ii) a therapeutic agent suitable for preventing or treating anon-cancerous condition in which an activity of AR and/or ER is acontributory factor, together with a pharmaceutically acceptableexcipient, carrier or diluent, in the manufacture of a medicament forpreventing or treating a non-cancerous condition in which an activity ofAR and/or ER is a contributory factor. The composition may be apharmaceutical composition which further comprises a pharmaceuticallyacceptable excipient, carrier or diluent.

It will be appreciated that the invention includes a molecule thatinhibits or prevents an interaction between a Src family kinase (e.g.Src kinase) and an androgen or estradiol receptor, for use in preventingor treating a non-cancerous condition in which an activity of AR and/orER is a contributory factor in a subject, or for use in preventing ortreating a cancerous condition in which an activity of AR and/or ER is acontributory factor in a subject who wishes to preserve fertility, orfor use in preventing or treating a gynaecological condition in which anactivity of AR and/or ER is a contributory factor in a subject, whereinthe subject is also administered a therapeutic agent suitable forpreventing or treating said condition.

Likewise, it will be understood that the invention includes the use of amolecule that inhibits or prevents an interaction between a Src familykinase (e.g. Src kinase) and an androgen or estradiol receptor, in themanufacture of a medicament for preventing or treating a non-cancerouscondition in which an activity of AR and/or ER is a contributory factorin a subject, or for preventing or treating a cancerous condition inwhich an activity of AR and/or ER is a contributory factor in a subjectwho wishes to preserve fertility, or for preventing or treating agynaecological condition in which an activity of AR and/or ER is acontributory factor in a subject, wherein the subject is alsoadministered a therapeutic agent suitable for preventing or treating anon-cancerous condition in which an activity of AR and/or ER is acontributory factor.

Preferably, the molecule may comprise or consist of the structure:

B_(j)-[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ IDNO: 1), or B_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2), or a derivative or fragment thereof, wherein B is afirst chemical moiety, j is 0 or 1, n is an integer from 1-10, m is aninteger from 1 to 3, R is a second chemical moiety, p is 0 or 1, and[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)] (SEQ ID NO: 2) is theretro-inverso peptide of [(Pro)_(n)-X_(r)His-Pro-His-Ala-Arg-Ile-Lys](SEQ ID NO: 1). Most preferably, the molecule has the structureAc-Pro-Pro-Pro-His-Pro-His-Ala-Arg-Ile-Lys-NH₂ (SEQ ID NO: 21) orAc-Pro-Pro-Thr-His-Pro-His-Ala-Arg-Ile-Lys-NH₂(SEQ ID NO: 23), where Acis an acetyl group.

The inventors have found that molecules that inhibit or prevent aninteraction between a Src family kinase and the AR and/or ER may used toprevent or treat a non-cancerous condition in which an activity of ARand/or ER is a contributory factor. Thus, it is appreciated that byassessing the effect of test agents on this interaction, one canidentify agents to prevent or treat a non-cancerous condition.

Accordingly, a further aspect of the invention provides a method ofselecting an agent to prevent or treat a non-cancerous condition inwhich an activity of AR and/or ER is a contributory factor, the methodcomprising determining whether a test agent reduces an interactionbetween (a) AR or ER or a portion thereof, said portion being capable ofbinding to a Src family kinase and (b) a Src family kinase or a portionthereof, said portion being capable of binding to AR or ER.

Preferences for AR, ER and Src family kinase, and for the non-cancerouscondition include those defined above with respect to the first aspectof the invention.

It will be appreciated that it is not necessary to provide the entire ARor ER, or Src family kinase for the purpose of the screening method.Portions of the AR or ER that are capable of binding to Src familykinase (e.g. Src kinase) may be used, and portions of Src family kinase(e.g. Src kinase) that are capable of binding to the AR or ER may beused. For example, as described above, the SH3 and SH2 domains of Srcfamily kinase (e.g. Src kinase) are believed to mediate the interactionbetween Src family kinase and each of AR and ER, respectively. Thus, aportion of Src family kinase (e.g. Src kinase) corresponding to the SH3domain or part thereof capable of binding to AR, or a portion of Srcfamily kinase (e.g. Src kinase) corresponding to the SH2 domain or partthereof capable of binding to ER, may be used. Likewise, a portion ofthe AR corresponding to amino acid residues 377-386 of AR, believed tomediate the interaction between AR and the SH3 domain of Src familykinase (e.g. Src kinase), may be used. Other suitable portions may bedetermined by one of skilled in the art and are described, for example,in Migliaccio et al (Oncogene 2007, 26: 6619) and Migliaccio et al(Cancer Research 2005, 65(22):10585-93).

The test agent may be any suitable test agent including a polypeptide,an antibody, a small molecule, a natural product, a peptidomimetic or anucleic acid. It is appreciated that a library of test agents may bescreened as part of a high throughput screen.

Various techniques can be used to determine a test agent's effect on theinteraction between AR or ER and Src family kinase (e.g. Src kinase) orportions thereof, for example as described above and which are wellknown in the art (e.g. from Migliaccio et al (Oncogene 2007, 26: 6619)and Migliaccio et al (Cancer Research 2005, 65(22):10585-93).

In one embodiment, the method comprises the step of isolating a testagent that reduces an interaction between (a) AR or ER or a portionthereof, said portion being capable of binding to a Src family kinaseand (b) a Src family kinase or a portion thereof, said portion beingcapable of binding to AR or ER.

Preferably, the test agent selected is one that reduces an interaction(a) AR or ER or a portion thereof, said portion being capable of bindingto a Src family kinase and (b) a Src family kinase or a portion thereof,said portion being capable of binding to AR or ER, by a factor of atleast 10%, 20%, 30%, 40% or 50% of the original binding in the absenceof the test agent, and more preferably by a factor of at least 60%, 70%,80%, 90% or 95%.

In one embodiment, the method further comprises identifying the testagent as an agent which prevents or treats a non-cancerous condition inwhich an activity of AR and/or ER is a contributory factor. For example,the method may further comprise assessing the efficacy of the test agentin an appropriate assay for the particular condition in question (e.g.an animal model of the condition). For instance, the method may be usedto select an agent to prevent or treat endometriosis such that itinvolves assessing the effect of the agent in a model of endometriosis.Suitable models of such conditions are well known in the art.

It will be appreciated that the test agent selected is an agent thatinhibits or prevents an interaction between a Src family kinase and anAR or ER within the meaning of the first aspect of the invention and socan be used as such.

It is appreciated that in the method described herein, which may be drugscreening methods, a term well known to those skilled in the art, thetest agent may be a drug-like compound or lead compound for thedevelopment of a drug-like compound.

The term “drug-like compound” is well known to those skilled in the art,and may include the meaning of a compound that has characteristics thatmay make it suitable for use in medicine, for example as the activeingredient in a medicament. Thus, for example, a drug-like compound maybe a molecule that may be synthesised by the techniques of organicchemistry, less preferably by techniques of molecular biology orbiochemistry, and is preferably a small molecule, which may be of lessthan 5000 daltons and which may be water-soluble. A drug-like compoundmay additionally exhibit features of selective interaction with aparticular protein or proteins and be bioavailable and/or able topenetrate target cellular membranes or the blood:brain barrier, but itwill be appreciated that these features are not essential.

The term “lead compound” is similarly well known to those skilled in theart, and may include the meaning that the compound, whilst not itselfsuitable for use as a drug (for example because it is only weakly potentagainst its intended target, non-selective in its action, unstable,poorly soluble, difficult to synthesise or has poor bioavailability) mayprovide a starting-point for the design of other compounds that may havemore desirable characteristics.

In one embodiment, the method is performed in vitro. By in vitro weinclude both cell-free assays and cell-based assays. For example, themethod may be performed in isolated human cell lines or in cell linesthat can be easily manipulated within a laboratory (e.g. Escherichiacoli and Saccharomyces cerevisiae).

In an alternative embodiment, the method is performed in vivo, forexample in animal models of the particular conditions (e.g.endometriosis).

The invention provides any molecule, use, method or compositionsubstantially as described herein.

The invention will now be described with the aid of the followingfigures and examples.

FIG. 1: Mouse weight (g) in dose ranging study.

FIG. 2: Lesion growth following treatment (mm2) in dose ranging study.

FIG. 3: Homologues of PPPHPHARIK (SEQ ID NO: 21) in a selection ofspecies.

EXAMPLE 1 The Peptide Ac-PPPHPHARIK-NH2 (SEQ ID NO: 21) ExhibitsTherapeutic Efficacy Against Endometriosis without Affecting FertilitySUMMARY

Two studies have been carried out which demonstrate the efficacy of thepeptide Ac-PPPHPHARIK-NH2 (SEQ ID NO: 21) (also defined in Tables 1-4 asValiRx1) in treating endometriosis without reducing fertility.

RESULTS

In a first study, a total of 4 treatment and 5 control animals weregenerated in a novel in-vivo model of endometriosis (Research Horizons,University of Cambridge, 2009 Issue 8, GB 0715635.9) K-rasV12|Ah-Cretransgenic mice were crossed with Rosa26R mice to generate KrasV12+/−/Ah-Cre+/−/ROSA26R-LacZ+/−transgenic mice. The F1 offspring wereinbred to generate F2 K-rasV12+/−/Ah-Cre+/+/ROSA26R-LacZ+/+transgenicmice. The presence of the transgenes was determined by PCR using genespecific primers for K-ras, Cre and Rosa26R-LacZ. Tissue was collectedfrom donor animals previously treated with hormones etc. and was dividedbetween wild-type animals that were then injected with drug or vehiclefor 21 days.

From a total of four treated animals, three showed complete absence oflesion following treatment with one non-responder. In the control groupstotalling 5 animals, one failed to develop a lesion.

A second study was designed to evaluate the effect of the peptide onreproduction in healthy mice and efficacy against autografted lesionsderived from one uteri re-implanted in the same animal (Becker et al, AM J Pathol 178 (4): 1782-91).

Estrous Cycling

8-10 week old, female nulliparous C57BL6 mice were acclimatised for 1week. A group of 10 animals were treated with 10 ng of peptide injectedsubcutaneously 3 days prior to experimentation with a group of 10controls dosed with vehicle alone. Daily vaginal smears were taken for aperiod of 10 days. Normal smears were obtained in all cases

Mating (Female Treatment Group)

8-10 week old, female nulliparous C57BL6 mice were acclimatised for 1week. A group of 10 female animals were dosed with 10 ng of peptideinjected subcutaneously 3 days prior to experimentation with a controlgroup of 10 animals treated with vehicle alone.

5 male C57BL6 animals were introduced and the females checked daily formucous plug (before 9 a.m.). When mucous plug was recorded the femaleswere evaluated for:

a) Length of possible pregnancy (days)

b) Number of offspring

c) Anomalies in offspring

All animals delivered normal litters (with the exception of one of thedosed group)

Mating (Male Treatment Group)

8-10 week old, nulliparous C57BL6 mice were acclimatised for 1 week. Agroup of 5 male animals were dosed with 10 ng of peptide injectedsubcutaneously 3 days prior to experimentation with a control group of 5animals dosed with vehicle alone (10 ng daily SC). 10 non-treated femaleC57BL6 animals were introduced to each group and the females checkeddaily for mucous plug (before 9 a.m.). When mucous plug was recorded thefemales were evaluated for:

a) Length of possible pregnancy (days)

b) Number of offspring

c) Anomalies in offspring

As above all animals delivered normal litters

Mating (2 Generation from Treated Females)

Offspring from dosed females were mated and checked for fertility todetermine possible inheritable effects. Animals were evaluated as abovefollowing plugging with no abnormalities noted.

Dose Ranging Prevention Study

8-10 week old, female nulliparous C57BL6 mice were each transplantedwith 6x plugs of uterine tissue from donor animals after one week ofacclimatisation. Three groups of 5 animals began immediate daily dosingwith 1 ng, 10 ng or 100 ng of peptide injected subcutaneously with theARP peptide and a control group of 5 animals treated with vehicle alone.Lesion growth following treatment in the dosed group was significantlyreduced compared to the control group (see FIG. 2).

The model resulted in excellent lesion establishment (97.67%-100%, Table4). A reduction in lesion burden (6.02 mm², 5.53 mm² and 4.52 mm² vs.7.18 mm², Table 2) and growth (6.23 mm², 5.72 mm² and 4.52 vs 7.18 mm²Table 3).

With regard to dose, there is an option to synchronize estrous cycle bysingle injection of estrogen 2-3 days prior to surgery.

The data obtained from the experiments described above are illustratedin FIGS. 1 and 2 and Tables 1-4.

TABLE 1 Mouse weight following treatment with Valirx1 or control withouttreatment Mouse # Treatment Approach Application Dose Frequency WeightAverage Weight STD SEM 1 ValiRx1 Prevention s.c. injection  1 ng/mouseDaily 25 2 ValiRx1 Prevention s.c. injection  1 ng/mouse Daily 27 3ValiRx1 Prevention s.c. injection  1 ng/mouse Daily 23 4 ValiRx1Prevention s.c. injection  1 ng/mouse Daily 27 5 ValiRx1 Prevention s.c.injection  1 ng/mouse Daily 24 25.2 1.79 0.8 1 ValiRx1 Prevention s.c.injection  10 ng/mouse Daily 30 2 ValiRx1 Prevention s.c. injection  10ng/mouse Daily 30 3 ValiRx1 Prevention s.c. injection  10 ng/mouse Daily23 4 ValiRx1 Prevention s.c. injection  10 ng/mouse Daily 30 5 ValiRx1Prevention s.c. injection  10 ng/mouse Daily 24 27.4 3.58 1.6 1 ValiRx1Prevention s.c. injection 100 ng/mouse Daily 25 2 ValiRx1 Preventions.c. injection 100 ng/mouse Daily 27 3 ValiRx1 Prevention s.c. injection100 ng/mouse Daily 22 4 ValiRx1 Prevention s.c. injection 100 ng/mouseDaily 34 5 ValiRx1 Prevention s.c. injection 100 ng/mouse Daily 34 28.45.41 2.4207 1 Control Prevention s.c. injection n/a Daily 28 2 ControlPrevention s.c. injection n/a Daily 27 3 Control Prevention s.c.injection n/a Daily 30 4 Control Prevention s.c. injection n/a Daily 255 Control Prevention s.c. injection n/a Daily 28 27.6 1.82 0.8124

TABLE 2 Lesion Burden following treatment with various doses of Valirx1or control without treatment BUR- DEN P1 P2 P3 P4 P5 P6 Ave Mean StDevSEM Ttest 1 ValiRx1 Pre- s.c.  1 ng/ Daily 15.1 5.7 8.0 3.8 0.2 6.2 6.5ven- injec- mouse tion tion 2 ValiRx1 Pre- s.c.  1 ng/ Daily 10.2 10.616.6 3.8 0.5 9.4 8.5 ven- injec- mouse tion tion 3 ValiRx1 Pre- s.c.  1ng/ Daily 1.8 0.2 0.1 0.0 3.5 1.1 1.1 ven- injec- mouse tion tion 4ValiRx1 Pre- s.c.  1 ng/ Daily 1.1 3.1 2.5 0.2 1.1 3.5 1.9 ven- injec-mouse tion tion 5 ValiRx1 Pre- s.c.  1 ng/ Daily 4.2 16.7 15.2 17.0 11.28.0 12.1 6.02 5.69 1.04 ven- injec- mouse tion tion 1 ValiRx1 Pre- s.c.10 ng/ Daily 1.0 3.5 10.9 1.0 1.0 0.2 2.9 ven- injec- mouse tion tion 2ValiRx1 Pre- s.c. 10 ng/ Daily 7.3 10.0 4.5 6.7 7.1 4.5 6.7 ven- injec-mouse tion tion 3 ValiRx1 Pre- s.c. 10 ng/ Daily 12.6 7.0 9.6 5.4 21.112.1 11.3 ven- injec- mouse tion tion 4 ValiRx1 Pre- s.c. 10 ng/ Daily3.1 3.5 3.5 3.0 3.5 3.1 3.3 ven- injec- mouse tion tion 5 ValiRx1 Pre-s.c. 10 ng/ Daily 1.1 2.5 3.5 0.0 4.0 9.7 3.5 5.53 4.63 0.85 ven- injec-mouse tion tion 1 ValiRx1 Pre- s.c. 100 ng/  Daily 7.0 18.5 11.0 8.412.6 13.2 11.8 ven- injec- mouse tion tion 2 ValiRx1 Pre- s.c. 100 ng/ Daily 4.5 2.8 2.3 0.2 1.0 0.3 1.8 ven- injec- mouse tion tion 3 ValiRx1Pre- s.c. 100 ng/  Daily 2.8 2.3 2.3 3.8 7.5 0.3 3.2 ven- injec- mousetion tion 4 ValiRx1 Pre- s.c. 100 ng/  Daily 2.0 3.1 3.5 2.5 3.8 2.8 3.0ven- injec- mouse tion tion 5 ValiRx1 Pre- s.c. 100 ng/  Daily 1.5 3.54.9 1.8 2.0 3.5 2.9 4.52 4.31 0.79 ven- injec- mouse tion tion 1 ControlPre- s.c. n/a Daily 0.2 4.9 6.6 9.3 9.6 10.2 6.8 ven- injec- tion tion 2Control Pre- s.c. n/a Daily 7.5 6.6 9.1 7.1 9.8 7.5 7.9 ven- injec- tiontion 3 Control Pre- s.c. n/a Daily 2.5 3.8 3.8 7.0 6.2 1.8 4.2 ven-injec- tion tion 4 Control Pre- s.c. n/a Daily 4.2 4.9 5.3 9.6 8.5 4.96.2 ven- injec- tion tion 5 Control Pre- s.c. n/a Daily 7.0 15.7 16.70.5 18.4 6.2 10.8 7.18 4.26 0.78 0.37 0.15 0.01908652 ven- injec- tiontion

TABLE 3 Lesion Growth following treatment with various doses of Valirx1or control without treatment Growth P1 P2 P3 1 ValiRx1 Prevention s.c.injection  1 ng/mouse Daily 15.1 5.694 8.042 2 ValiRx1 Prevention s.c.injection  1 ng/mouse Daily 10.18 10.56 16.62 3 ValiRx1 Prevention s.c.injection  1 ng/mouse Daily 1.767 0.196 0.126 4 ValiRx1 Prevention s.c.injection  1 ng/mouse Daily 1.131 3.142 2.545 5 ValiRx1 Prevention s.c.injection  1 ng/mouse Daily 4.155 16.74 15.21 1 ValiRx1 Prevention s.c.injection  10 ng/mouse Daily 0.95 3.464 10.95 2 ValiRx1 Prevention s.c.injection  10 ng/mouse Daily 7.288 10.02 4.524 3 ValiRx1 Prevention s.c.injection  10 ng/mouse Daily 12.57 7.037 9.621 4 ValiRx1 Prevention s.c.injection  10 ng/mouse Daily 3.142 3.464 3.464 5 ValiRx1 Prevention s.c.injection  10 ng/mouse Daily 1.131 2.545 3.464 1 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 7.037 18.47 11 2 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 4.453 2.827 2.27 3 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 2.827 2.27 2.27 4 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 2.011 3.142 3.464 5 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 1.539 3.464 4.909 1 Control Prevention s.c.injection n/a Daily 0.196 4.909 6.605 2 Control Prevention s.c.injection n/a Daily 7.548 6.605 9.079 3 Control Prevention s.c.injection n/a Daily 2.545 3.801 3.801 4 Control Prevention s.c.injection n/a Daily 4.155 4.909 5.309 5 Control Prevention s.c.injection n/a Daily 7.037 15.71 16.74 P4 M1 M2 Ave Mean StDev SEM Ttest1 3.801 0.196 6.158 6.5 2 3.801 0.503 9.425 8.5 3 3.456 1.131 1.3 40.196 1.131 3.464 1.9 5 16.96 11.2 8.042 12.1 6.23 5.67 1.05 1 0.95 0.950.196 2.9 2 6.739 7.069 4.524 6.7 3 5.372 21.11 12.06 11.3 4 2.969 3.4643.142 3.3 5 3.958 9.66 4.2 5.72 4.59 0.85 1 8.357 12.57 13.2 11.8 20.196 0.95 0.283 1.8 3 3.801 7.548 0.283 3.2 4 2.545 3.801 2.835 3.0 51.767 2.011 3.464 2.9 4.52 4.31 0.79 1 9.346 9.621 10.18 6.8 2 7.0619.802 7.548 7.9 3 7.037 6.158 1.767 4.2 4 9.55 8.545 4.909 6.2 5 0.50318.38 6.158 10.8 7.18 4.26 0.78 0.47 0.019086519

TABLE 4 Lesion establishment ESTABLISHMENT P1 P2 P3 P4 M1 M2 Ave MeanStDev SEM Ttest 1 ValiRx1 Prevention s.c. injection  1 ng/mouse Daily 11 1 1 1 1 100 2 ValiRx1 Prevention s.c. injection  1 ng/mouse Daily 1 11 1 1 1 100 3 ValiRx1 Prevention s.c. injection  1 ng/mouse Daily 1 1 10 1 1 83.33 4 ValiRx1 Prevention s.c. injection  1 ng/mouse Daily 1 1 11 1 1 100 5 ValiRx1 Prevention s.c. injection  1 ng/mouse Daily 1 1 1 11 1 100 96.67 7.45 1.36 1 ValiRx1 Prevention s.c. injection  10 ng/mouseDaily 1 1 1 1 1 1 100 2 ValiRx1 Prevention s.c. injection  10 ng/mouseDaily 1 1 1 1 1 1 100 3 ValiRx1 Prevention s.c. injection  10 ng/mouseDaily 1 1 1 1 1 1 100 4 ValiRx1 Prevention s.c. injection  10 ng/mouseDaily 1 1 1 1 1 1 100 5 ValiRx1 Prevention s.c. injection  10 ng/mouseDaily 1 1 1 0 1 1 83.33 96.67 7.45 1.36 1 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 1 1 1 1 1 1 100 2 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 1 1 1 1 1 1 100 3 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 1 1 1 1 1 1 100 4 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 1 1 1 1 1 1 100 5 ValiRx1 Prevention s.c.injection 100 ng/mouse Daily 1 1 1 1 1 1 100 100.00 0.00 0.00 1 ControlPrevention s.c. injection n/a Daily 1 1 1 1 1 1 100 2 Control Preventions.c. injection n/a Daily 1 1 1 1 1 1 100 3 Control Prevention s.c.injection n/a Daily 1 1 1 1 1 1 100 4 Control Prevention s.c. injectionn/a Daily 1 1 1 1 1 1 100 5 Control Prevention s.c. injection n/a Daily1 1 1 1 1 1 100 100.00 0.00 0.00

1. A molecule that inhibits or prevents an interaction between a Srcfamily kinase and an androgen receptor (AR) or estradiol receptor (ER),for use in preventing or treating a non-cancerous condition in which anactivity of AR and/or ER is a contributory factor in a subject, or foruse in preventing or treating a cancerous condition in which an activityof AR and/or ER is a contributory factor in a subject who wishes topreserve fertility, or for use in preventing or treating agynaecological condition in which an activity of AR and/or ER is acontributory factor in a subject.
 2. (canceled)
 3. A method ofpreventing or treating a non-cancerous condition in which an activityofan androgen receptor (AR) and/or estradiol receptor (ER) is acontributory factor in a subject, or for preventing or treating acancerous condition in which an activity of AR and/or ER is acontributory factor in a subject who wishes to preserve fertility, orfor preventing or treating a gynaecological condition in which anactivity of AR and/or ER is a contributory factor in a subject, themethod comprising administering to the subject in need thereof aneffective amount of a molecule that inhibits or prevents an interactionbetween a Src family kinase and an AR or ER.
 4. The molecule of claim 1,wherein the Src family kinase is any of Src, Yes, Fyn, Fgr, Lck, Hck,Blk, Lyn and Frk.
 5. The molecule of claim 1, wherein the moleculecomprises the structure:B_(j)-[(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys]_(m)-R_(p) (SEQ IDNO: 1), or B_(j)-[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)]_(m)-R_(p)(SEQ ID NO: 2), or a derivative or fragment thereof, wherein B is afirst chemical moiety, j is 0 or 1, n is an integer from 1-10, X is anyamino acid, r is an integer from 0 to 2, m is an integer from 1 to 3, Ris a second chemical moiety, p is 0 or 1, and[lys-ile-arg-ala-his-pro-his-x_(r)-(pro)_(n)] (SEQ ID NO: 2) is theretro-inverso peptide of [(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys](SEQ ID NO: 1).
 6. The molecule of claim 1, wherein the molecule is anantibody against the SH3 or SH2 domain of a Src family kinase or whereinthe molecule is an antibody against the peptide(Pro)_(n)-X_(r)-His-Pro-His-Ala-Arg-Ile-Lys (SEQ ID NO: 1 ), where n isan integer from 1-10, X is any amino acid and r is an integer from 0 to2.
 7. (canceled)
 8. The molecule of claim 5, wherein n is 3 and m is 1.9. The molecule of claim 1, wherein the molecule is a peptide,preferably wherein the peptide is between 3 and 57 amino acids inlength.
 10. (canceled)
 11. The molecule, use or method of claim 5,wherein B is any of H, an acetyl group, or one or more amino acidsprovided with a free or acetyl-derivatised NH₂ group.
 12. The moleculeof claim 5, wherein R is any of an OH group, an NH₂ group, or one ormore amino acids with a C-terminal carboxy-amide group.
 13. The moleculeof claim 5, wherein the first and second chemical moieties B and Rcomprise independently or both comprise any of a lipid, a fatty acid, apolyethylene glycol, a triglyceride, glycerol, a prenyl or isoprenylmoiety, a carbohydrate, an amino acid, a peptide, a polypeptide, or anucleic acid, or a combination thereof.
 14. The molecule of claim 5,wherein r is
 0. 15. The molecule of claim 5, wherein the moleculecomprises the structure Pro-Pro-Pro-His-Pro-His-Ala-Arg-Ile-Lys (SEQ IDNO: 21) or Ac-Pro-Pro-Pro-His-Pro-His-Ala-Arg-Ile-Lys-NH₂ (SEQ ID NO:21), where Ac is an acetyl group.
 16. The molecule of claim 5, wherein Xis threonine and r is
 1. 17. The molecule of claim 16, wherein themolecule comprises the structure Pro-Pro-Thr-His-Pro-His-Ala-Arg-Ile-Lys(SEQ ID NO: 23), or Ac-Pro-Pro-Thr-His-Pro-His-Ala-Arg-Ile-Lys-NH₂ (SEQID NO: 23), where Ac is an acetyl group.
 18. The molecule of claim 5,wherein the molecule comprises a structure selected from the groupconsisting of HPHARIK (SEQ ID NO: 3), HPHAR (SEQ ID NO: 4), PHPHAR (SEQID NO: 5), HPH, PHPH (SEQ ID NO: 6), PPHPH (SEQ ID NO: 7), PPPHPH (SEQID NO: 8), PHP, PPHP (SEQ ID NO: 9), PPPHP (SEQ ID NO: 10), PPPH (SEQ IDNO: 11), PPH, and PPP, such as a molecule that comprises a structureselected from the group consisting of Ac-HPHARIK-NH2 (SEQ ID NO: 12),Ac-HPHAR-NH2 (SEQ ID NO: 13), Ac-PHPHAR-NH2 (SEQ ID NO: 14), Ac-HPH-NH2,Ac-PHPH-NH2 (SEQ ID NO: 15), Ac-PPHPH-NH2 (SEQ ID NO: 16), Ac-PPPHPH-NH2(SEQ ID NO: 17), Ac-PHP-NH2, Ac-PPHP-NH2 (SEQ ID NO: 18), Ac-PPPHP-NH2P(SEQ ID NO: 19), Ac-PPPH-NH2 (SEQ ID NO: 20), Ac-PPH-NH2 and Ac-PPP-NH2,where Ac is an acetyl group.
 19. The method according to claim 3,wherein the molecule is administered as a vaccine to generateantibodies.
 20. The molecule of claim 1, wherein the molecule is linkedto a carrier molecule such as bovine serum albumin (BSA) or keyholelimpet hemocyanin (KLH).
 21. The molecule of claim 1, wherein themolecule is comprised in a lipid composition such as a lipid particle, ananocapsule, a liposome or a lipid vesicle.
 22. The method according toclaim 3, wherein the non-cancerous condition is any one ofendometriosis, ovarian cysts, fibroids polyps hyperplasia, neoplasia,anovulatory bleeding, or endometrial growth in the scrotum, bladder orprostate, or is a reproductive condition, such as a gynaecologicalcondition.
 23. (canceled)
 24. The method of claim 3, wherein thecancerous condition is any one of uterine fibroids, fibroids polypshyperplasia, ovarian cancer, bladder cancer, cervical cancer, uterinecancer, testicular cancer or prostate cancer, or is a reproductivecondition, such as a gynaecological condition. 25-38. (canceled)
 39. Themolecule of claim 1 formulated in any of a vaginal or rectalsuppository; an intravaginal tampon; an intravaginal ring; anintravaginal pessary; an intravaginal sponge; a medicated intrauterinedevice (IUD); or a sustained-release formulation.
 40. (canceled) 41.(canceled)
 42. A method of selecting an agent to prevent or treat anon-cancerous condition in which an activity of AR and/or ER is acontributory factor, the method comprising determining whether a testagent reduces an interaction between (a) AR or ER or a portion thereof,said portion being capable of binding to a Src family kinase and (b) aSrc family kinase or a portion thereof, said portion being capable ofbinding to AR or ER. 43-45. (canceled)